CN116350035A - Mattress lifting machine core for coordinating and synchronously adjusting softness and hardness - Google Patents

Abstract

The invention relates to the field of mattresses, in particular to a mattress lifting machine core for coordinating and synchronously adjusting softness, which comprises a machine core fixing jacket and a lifting machine core, wherein: the lifting machine core is arranged in the machine core fixing sleeve, the lifting machine core comprises a machine core panel and a machine core bottom plate, a coordination synchronous lifting mechanism is arranged between the machine core panel and the machine core bottom plate, and soft fillers are arranged between the machine core fixing sleeve and the machine core panel.

Description

Mattress lifting machine core for coordinating and synchronously adjusting softness and hardness

Technical Field

The invention relates to the field of mattresses, in particular to a mattress lifting machine core for coordinating and synchronously adjusting softness.

Background

Spring mattress is commonly called as 'Simmons' in China, belongs to a mattress which is commonly used in modern times and has better performance, and a mattress core consists of springs. The cushion has the advantages of good elasticity, better bearing property, stronger air permeability, durability and the like. The three-section type partition independent spring which is strictly designed according to the ergonomic principle can flexibly stretch and retract according to the curve and the weight of a human body.

When the existing spring mattress is used, the softness of the spring mattress is completely dependent on the spring in the mattress, and the elasticity ratio of the spring is the softness of the mattress, and the spring mattress is generally fixed in softness and cannot be controlled and adjusted.

Disclosure of Invention

In order to overcome the defects of the prior art, the technical problem to be solved by the invention is to provide the mattress lifting machine core capable of adjusting the waist and hip positions of the mattress in a coordinated and synchronous manner.

To achieve the purpose, the invention adopts the following technical scheme:

the invention provides a mattress lifting machine core for coordinating and synchronously adjusting softness, which comprises a machine core fixing jacket and a lifting machine core, wherein: the lifting machine core is arranged in the machine core fixing outer sleeve, the lifting machine core comprises a machine core panel and a machine core bottom plate, a coordination synchronous lifting mechanism is arranged between the machine core panel and the machine core bottom plate, soft filler is arranged between the machine core fixing outer sleeve and the machine core panel, and the machine core panel can be lifted by keeping a horizontal posture on the machine core bottom plate through the coordination synchronous lifting mechanism.

More specifically, the coordination synchronization lifting mechanism specifically includes: the device comprises a driving push rod, a synchronous transmission rod and a coordination lifting frame, wherein the synchronous transmission rod is arranged on a machine core bottom plate, the coordination lifting frame is arranged at two opposite side ends of the synchronous transmission rod, the top and the bottom of the coordination lifting frame are respectively connected to the machine core bottom plate and a machine core panel, the driving push rod is arranged on the machine core bottom plate, and the telescopic end of the driving push rod is connected to one of the coordination lifting frames; the driving push rod can directly push the coordination lifting frame to rotate, and the coordination lifting frame can drive the other coordination lifting frame to rotate through the synchronous transmission rod when rotating, so that the movement panel can be lifted and lowered while keeping a horizontal posture.

More specifically, the coordinated lifting frame specifically comprises: the device comprises a base, a rotating rod, a top seat, a first clamping arm, a second clamping arm and a lifting arm, wherein the two bases are symmetrically arranged on a machine core bottom plate, the rotating rod is arranged between the two bases, the first clamping arm and the second clamping arm are arranged on the rotating rod, the lifting arm is connected to the first clamping arm, the top of the lifting arm is pinned on the top seat through a locating pin, the top seat is fixed at the bottom of the machine core panel, one side of the bottom of the second clamping arm is connected with a telescopic end of a driving push rod, and the other side of the bottom of the second clamping arm is connected with one end of a synchronous transmission rod; the driving push rod can drive the first clamping arm to rotate through the second clamping arm in a telescopic manner, so that the first clamping arm can push the movement panel through the lifting arm, and the distance between the movement panel and the movement bottom plate is adjusted.

In the preferred technical scheme of the invention, a plurality of positioning telescopic rods are also arranged between the movement bottom plate and the movement panel.

In the preferred technical scheme of the invention, the first clamping arm and the second clamping arm can also be provided as an integrated force arm, and the end face structure of the force arm is of a V-shaped structure.

In a preferred embodiment of the invention, the first clamping arm and the second clamping arm can be adjusted in position on the rotary lever by loosening the bolts.

The working process and principle of the invention are as follows: when the driving push rod stretches out and draws back, the second clamping arm in the coordination lifting frame connected with the stretching end of the driving push rod drives the first clamping arm to rotate, so that the first clamping arm passes through the lifting arm, and meanwhile, the second clamping arm synchronously drives the coordination lifting frame on the other side of the synchronous transmission rod through the synchronous transmission rod, so that the machine core panel lifts on the machine core bottom plate, soft fillers are compressed in a limited space of the machine core fixing sleeve, when the soft fillers are not compressed under stress, the mattress is in a softer state, and when the soft fillers are compressed under stress, the mattress is in a harder state.

Compared with the prior art, the invention has the following advantages:

according to the invention, when the soft filler is stressed and compressed, the mattress is in a harder state, so that the hardness of the mattress is optionally adjusted, and when the mattress is adjusted, the front and rear positions of the core panel can be synchronously lifted through the synchronous transmission rod, so that the core panel is in a horizontal state when the height of the core panel is adjusted, and the mattress can be integrally adjusted in hardness.

According to the invention, the plurality of positioning telescopic rods arranged between the lifting machine core bottom plate and the machine core panel can synchronously stretch and retract when the machine core panel is lifted, so that the supporting force of the machine core panel is maintained, and the occurrence of collapse of a mattress is avoided.

According to the invention, the first clamping arm and the second clamping arm can be adjusted in position on the rotating rod by loosening the bolts, so that a plurality of first clamping arms and second clamping arms can be installed on one rotating rod, and in a larger mattress, the driving push rod, the first clamping arm, the second clamping arm and the lifting arm can be additionally installed, so that the movement panel can be lifted and lowered in a horizontal posture no matter the size of the movement panel.

Drawings

Fig. 1 is a schematic cross-sectional view of a mattress lifting mechanism for coordinating and synchronously adjusting softness.

Fig. 2 is a schematic left-view structure of the synchronous transmission rod of the present invention.

Fig. 3 is a left-view schematic structure of the positioning telescopic rod of the present invention.

Fig. 4 is a schematic perspective view of a deck of the present invention.

Fig. 5 is a schematic diagram of an explosion structure of the coordinated lifting frame of the present invention.

Fig. 6 is a schematic perspective view of a rotary rod according to the present invention.

Fig. 7 is a schematic perspective view of a first arm according to the present invention.

Fig. 8 is a schematic front view of the moment arm of the present invention.

Fig. 9 is a schematic perspective view of the arm of force of the present invention.

The reference numerals in the above figures illustrate:

1. the movement fixes the overcoat; 2. a lifting movement; 3. a deck panel; 4. coordinating a synchronous lifting mechanism; 5. a soft filler; 6. positioning a telescopic rod; 7. a movement base plate; 40. driving the push rod; 41. a synchronous transmission rod; 42. coordinating the lifting frame; 420. a base; 421. a rotating rod; 422. a top base; 423. a first clamp arm; 424. a second clamp arm; 425. and lifting the arm.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described below with reference to the accompanying drawings and examples.

Example 1:

as shown in fig. 1 to 9, the present embodiment discloses a mattress lifting mechanism for adjusting softness and hardness in a coordinated and synchronous manner, which comprises a fixed core sleeve 1 and a lifting core 2, wherein the lifting core 2 is arranged in the fixed core sleeve 1, the lifting core 2 comprises a core panel 3 and a core bottom plate 7, a coordinated and synchronous lifting mechanism 4 is arranged between the core panel 3 and the core bottom plate 7, a soft filler 5 is arranged between the fixed core sleeve 1 and the core panel 3, and the core panel 3 can be lifted and lowered by keeping a horizontal posture on the core bottom plate 7 by the coordinated and synchronous lifting mechanism 4.

More specifically, the coordinated synchronous lifting mechanism 4 specifically includes: the driving push rod 40, the synchronous transmission rod 41 and the coordination lifting frame 42, wherein the synchronous transmission rod 41 is arranged on the machine core bottom plate 7, the coordination lifting frame 42 is arranged at the two opposite side ends of the synchronous transmission rod 41, the top and the bottom of the coordination lifting frame 42 are respectively connected to the machine core bottom plate 7 and the machine core panel 3, the driving push rod 40 is arranged on the machine core bottom plate 7, and the telescopic end of the driving push rod 40 is connected to one of the coordination lifting frames 42; the driving push rod 40 can directly push the coordination lifting frame 42 to rotate, and the coordination lifting frame 42 can drive the other coordination lifting frame 42 to rotate through the synchronous transmission rod 41 when rotating, so that the movement panel 3 can be lifted and lowered while keeping a horizontal posture.

More specifically, the coordinating elevator 42 specifically includes: the device comprises a base 420, a rotating rod 421, a top seat 422, a first clamping arm 423, a second clamping arm 424 and a lifting arm 425, wherein the two bases 420 are symmetrically arranged on a movement bottom plate 7, the rotating rod 421 is arranged between the two bases 420, the first clamping arm 423 and the second clamping arm 424 are arranged on the rotating rod 421, the lifting arm 425 is connected to the first clamping arm 423, the top of the lifting arm 425 is pinned on the top seat 422 through a locating pin, the top seat 422 is fixed at the bottom of the movement panel 3, one side of the bottom of the second clamping arm 424 is connected with the telescopic end of a driving push rod 40, and the other side of the bottom of the second clamping arm 424 is connected with one end of a synchronous transmission rod 41; the driving push rod 40 can drive the first clamping arm 423 to rotate through the second clamping arm 424 in a telescopic manner, so that the first clamping arm 423 can push the movement panel 3 through the lifting arm 425, and the distance between the movement panel 3 and the movement bottom plate 7 is adjusted.

In the preferred technical scheme of the invention, in order to avoid collapse of the mattress, a plurality of positioning telescopic rods 6 are arranged between the core bottom plate 7 and the core panel 3.

In a preferred embodiment of the present invention, in order to reduce the production cost, the first clamping arm 423 and the second clamping arm 424 can also be configured as an integral force arm 426, and an end surface structure of the force arm 426 is a V-shaped structure.

In a preferred embodiment of the present invention, in order to enable movement panels 3 of different sizes to be lifted and lowered while maintaining a horizontal posture, the first and second clamp arms 423 and 424 can be adjusted in position on the rotating lever 421 by loosening the bolts.

The working process and principle of the invention are as follows: when the driving push rod 40 stretches out and draws back, the second clamping arm 424 in the coordination lifting frame 42 connected with the stretching end of the driving push rod 40 drives the first clamping arm 423 to rotate, so that the first clamping arm 423 drives the coordination lifting frame 42 on the other side of the synchronous transmission rod 41 synchronously through the lifting arm 425, and the second clamping arm 424 drives the coordination lifting frame 42 on the other side of the synchronous transmission rod 41 synchronously through the synchronous transmission rod 41, so that the movement panel 3 lifts on the movement bottom plate 7, the soft filler 5 is compressed in a limited space of the movement fixing sleeve 1, when the soft filler 5 is not compressed under stress, the mattress is in a softer state, when the soft filler 5 is compressed under stress, the mattress is in a harder state, the softness of the mattress is adjusted at will, and meanwhile, the front and back positions of the movement panel 3 can be lifted synchronously through the synchronous transmission rod 41 during adjustment, so that the movement panel 3 is in a horizontal state during height adjustment, and the mattress can be adjusted in a whole soft and hard state.

The above examples are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present invention should be made in the equivalent manner, and the embodiments are included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a mattress lift core of coordination synchronization regulation hardness, includes core fixed overcoat (1) and lift core (2), its characterized in that:

the lifting machine core is characterized in that the lifting machine core (2) is arranged in the machine core fixing outer sleeve (1), the lifting machine core (2) comprises a machine core panel (3) and a machine core bottom plate (7), a coordination synchronous lifting mechanism (4) is arranged between the machine core panel (3) and the machine core bottom plate (7), soft fillers (5) are arranged between the machine core fixing outer sleeve (1) and the machine core panel (3), and the machine core panel (3) can be lifted by keeping a horizontal posture on the machine core bottom plate (7) through the coordination synchronous lifting mechanism (4).

2. The mattress lifting core for coordinating and synchronizing the adjustment of softness and hardness according to claim 1, wherein: the coordination synchronous lifting mechanism (4) specifically comprises: the device comprises a driving push rod (40), a synchronous transmission rod (41) and a coordination lifting frame (42), wherein the synchronous transmission rod (41) is arranged on a machine core bottom plate (7), the coordination lifting frame (42) is arranged at two opposite side ends of the synchronous transmission rod (41), the top and the bottom of the coordination lifting frame (42) are respectively connected to the machine core bottom plate (7) and a machine core panel (3), the driving push rod (40) is arranged on the machine core bottom plate (7), and the telescopic end of the driving push rod (40) is connected to one of the coordination lifting frames (42); the driving push rod (40) can directly push the coordination lifting frame (42) to rotate, and the coordination lifting frame (42) can drive the other coordination lifting frame (42) to rotate through the synchronous transmission rod (41) when rotating, so that the movement panel (3) can be lifted in a horizontal posture.

3. The mattress lifting core for coordinating and synchronizing the adjustment of softness and hardness according to claim 2, wherein: the coordinating lifting frame (42) specifically comprises: base (420), rotary rod (421), footstock (422), first arm lock (423), second arm lock (424) and lift arm (425), two base (420) are the symmetry form and set up on core bottom plate (7), rotary rod (421) set up two between base (420), first arm lock (423) with second arm lock (424) set up on rotary rod (421), wherein be connected with on first arm lock (423) and lift arm (425), the top of lifting arm (425) is in through the locating pin joint on footstock (422), footstock (422) are fixed in core panel (3) bottom, the bottom one side of second arm lock (424) with the flexible end connection of driving push rod (40), the opposite side of second arm lock (424) bottom with one of them one end connection of synchronous drive pole (41); the driving push rod (40) can drive the first clamping arm (423) to rotate through the second clamping arm (424) in a telescopic manner, so that the first clamping arm (423) pushes the movement panel (3) through the lifting arm (425), and the distance between the movement panel (3) and the movement bottom plate (7) is adjusted.

4. The mattress lifting core for coordinating and synchronizing the adjustment of softness and hardness according to claim 1, wherein: a plurality of positioning telescopic rods (6) are further arranged between the movement bottom plate (7) and the movement panel (3).

5. A mattress lifting core for coordinating and synchronizing the adjustment of softness and hardness according to claim 3, wherein: the first clamping arm (423) and the second clamping arm (424) can also be arranged into an integrated force arm (426), and the end face structure of the force arm (426) is of a V-shaped structure.

6. A mattress lifting core for coordinating and synchronizing the adjustment of softness and hardness according to claim 3, wherein: the first clamping arm (423) and the second clamping arm (424) can be adjusted in position on the rotary lever (421) by loosening a bolt.

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